Produktdetails

Resistance (25°C) (Ω) 47000 Resistance tolerance (%) 1 Operating temperature range (°C) -40 to 150 Vin (min) (V) 5.5 Vin (max) (V) 5.5 Supply current (max) (µA) 0 Interface type Resistance Rating Automotive
Resistance (25°C) (Ω) 47000 Resistance tolerance (%) 1 Operating temperature range (°C) -40 to 150 Vin (min) (V) 5.5 Vin (max) (V) 5.5 Supply current (max) (µA) 0 Interface type Resistance Rating Automotive
SOT-5X3 (DYA) 2 1.28 mm² 1.6 x 0.8 X1SON (DEC) 2 0.6 mm² 1 x 0.6
  • Automotive Qualifications
  • Temperature Options:
    • AEC-Q100 Grade 1: –40 °C to 125 °C
    • AEC-Q100 Grade 0 (DYA): –40 °C to 150 °C
  • Silicon-based thermistor with a positive temperature coefficient (PTC)
  • Linear resistance change across temperature
  • 47-kΩ nominal resistance at 25 °C (R25)
    • ±1% maximum (0 °C to 70 °C)
  • Consistent sensitivity across temperature
    • 6400 ppm/°C TCR (25 °C)
    • 0.2% typical TCR tolerance across temperature range
  • Fast thermal response time of 0.6 s (DEC)
  • Long lifetime and robust performance
    • Built-in fail-safe in case of short-circuit failures
    • 0.5% typical long term sensor drift
  • Automotive Qualifications
  • Temperature Options:
    • AEC-Q100 Grade 1: –40 °C to 125 °C
    • AEC-Q100 Grade 0 (DYA): –40 °C to 150 °C
  • Silicon-based thermistor with a positive temperature coefficient (PTC)
  • Linear resistance change across temperature
  • 47-kΩ nominal resistance at 25 °C (R25)
    • ±1% maximum (0 °C to 70 °C)
  • Consistent sensitivity across temperature
    • 6400 ppm/°C TCR (25 °C)
    • 0.2% typical TCR tolerance across temperature range
  • Fast thermal response time of 0.6 s (DEC)
  • Long lifetime and robust performance
    • Built-in fail-safe in case of short-circuit failures
    • 0.5% typical long term sensor drift

Get started today with the Thermistor Design Tool, offering complete resistance vs temperature table (R-T table) computation, other helpful methods to derive temperature and example C-code.

Linear thermistors offer linearity and consistent sensitivity across temperature to enable simple and accurate methods for temperature conversion. Low power consumption and a small thermal mass minimize the impact of self-heating. With built-in failsafe behavior at high temperatures and powerful immunity to environmental variation, these devices are designed for a long lifetime of high performance. The small size of the TMP6 series also allows for close placement to heat sources and quick response times.

Take advantage of benefits over NTC thermistors such as no extra linearization circuitry, minimized calibration, less resistance tolerance variation, larger sensitivity at high temperatures, and simplified conversion methods to save time and memory in the processor.

The TMP64-Q1 is currently available in a 0402 footprint-compatible X1SON package and a 0603 footprint-compatible SOT-5X3 package.

Get started today with the Thermistor Design Tool, offering complete resistance vs temperature table (R-T table) computation, other helpful methods to derive temperature and example C-code.

Linear thermistors offer linearity and consistent sensitivity across temperature to enable simple and accurate methods for temperature conversion. Low power consumption and a small thermal mass minimize the impact of self-heating. With built-in failsafe behavior at high temperatures and powerful immunity to environmental variation, these devices are designed for a long lifetime of high performance. The small size of the TMP6 series also allows for close placement to heat sources and quick response times.

Take advantage of benefits over NTC thermistors such as no extra linearization circuitry, minimized calibration, less resistance tolerance variation, larger sensitivity at high temperatures, and simplified conversion methods to save time and memory in the processor.

The TMP64-Q1 is currently available in a 0402 footprint-compatible X1SON package and a 0603 footprint-compatible SOT-5X3 package.

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Technische Dokumentation

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Typ Titel Datum
* Data sheet TMP64-Q1 ±1% 47-kΩ Automotive Grade Linear Thermistor with 0402 and 0603 Package Options datasheet (Rev. B) PDF | HTML 02 Nov 2020
Application note Achieve ±1°C Accuracy or Better Across Temp. W/Low-Cost TMP6x Linear Thermistors PDF | HTML 30 Nov 2022
Application note Creating a Polynomial for TMP6 Temperature Measurements PDF | HTML 23 Mär 2022
User guide NTC Thermistor to TMP6 Linear Thermistor Replacement Guide PDF | HTML 10 Jan 2022
Application note Component Temperature Monitoring Using Differential Temperature Measurements PDF | HTML 10 Nov 2021
Application brief How to Protect Displays with the Latest Temperature Sensing Technology PDF | HTML 26 Jul 2021
Circuit design Wide temperature range linear negative temperature coefficient (NTC) output PDF | HTML 22 Dez 2020
Circuit design Wide temperature range linear positive temperature coefficient (PTC) output PDF | HTML 18 Dez 2020
Application note TMP6X Oversampling 14 Okt 2020

Design und Entwicklung

Weitere Bedingungen oder erforderliche Ressourcen enthält gegebenenfalls die Detailseite, die Sie durch Klicken auf einen der unten stehenden Titel erreichen.

Evaluierungsplatine

TMP6EVM — Evaluierungsmodul für linearen TMP6-Thermistor in Silizium-Technologie

The TMP6EVM evaluation kit is a plug and play system to test and evaluate the linear silicon TMP6 thermistor. The EVM can be powered with either with USB or a CR2032 coin cell battery. The EVM is a standalone module that supports the TMP116 digital sensor and two analog channels. The TMP116 can be (...)
Benutzerhandbuch: PDF
GUI für Evaluierungsmodul (EVM)

TMP6EVM-GUI-WINDOWS TMP6EVM GUI WINDOWS

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TMP61 Linearer Thermistor, 1 % und 10 kΩ , in Gehäuse 0402, 0603/0805 und Through Hole TMP61-Q1 Linearer Thermistor für die Automobilindustrie, 1 %, 10 kΩ, in Gehäuse 0402, 0603/0805 und Through H TMP63 Linearer Thermistor, 1 %,100 kΩ in Gehäuse 0402, 0603/0805 TMP63-Q1 Linearer Thermistor für den Automobilbereich, 1 %, 100 kΩ, in 0402 0603/0805 Gehäusen TMP64 Linearer Thermistor, 1 %, 47 kΩ, in Gehäuse 0402, 0603/0805 TMP64-Q1 Linearer Thermistor für die Automobilindustrie, 1 %, 47 kΩ, in Gehäuse 0402, 0603/0805
Hardware-Entwicklung
Evaluierungsplatine
TMP6EVM Evaluierungsmodul für linearen TMP6-Thermistor in Silizium-Technologie
Support-Software

TMP6-THERMISTOR-DESIGN Thermistor Design Tool

TMP6 linear thermistors, like other traditional negative temperature coefficient (NTC) or positive temperature coefficient (PTC) thermistors on the market, require resistance-to-temperature conversion tables to use them within a system. The TMP6 thermistor design tool offers these tables in (...)
Unterstützte Produkte und Hardware

Unterstützte Produkte und Hardware

Produkte
Heißleiter
TMP61 Linearer Thermistor, 1 % und 10 kΩ , in Gehäuse 0402, 0603/0805 und Through Hole TMP61-Q1 Linearer Thermistor für die Automobilindustrie, 1 %, 10 kΩ, in Gehäuse 0402, 0603/0805 und Through H TMP63 Linearer Thermistor, 1 %,100 kΩ in Gehäuse 0402, 0603/0805 TMP63-Q1 Linearer Thermistor für den Automobilbereich, 1 %, 100 kΩ, in 0402 0603/0805 Gehäusen TMP64 Linearer Thermistor, 1 %, 47 kΩ, in Gehäuse 0402, 0603/0805 TMP64-Q1 Linearer Thermistor für die Automobilindustrie, 1 %, 47 kΩ, in Gehäuse 0402, 0603/0805
Hardware-Entwicklung
Evaluierungsplatine
TMP6EVM Evaluierungsmodul für linearen TMP6-Thermistor in Silizium-Technologie
Gehäuse Pins CAD-Symbole, Footprints und 3D-Modelle
SOT-5X3 (DYA) 2 Ultra Librarian
X1SON (DEC) 2 Ultra Librarian

Bestellen & Qualität

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  • REACH
  • Bausteinkennzeichnung
  • Blei-Finish/Ball-Material
  • MSL-Rating / Spitzenrückfluss
  • MTBF-/FIT-Schätzungen
  • Materialinhalt
  • Qualifikationszusammenfassung
  • Kontinuierliches Zuverlässigkeitsmonitoring
Beinhaltete Information:
  • Werksstandort
  • Montagestandort

Support und Schulungen

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